You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
ColossalAI/colossalai/shardformer/layer/normalization.py

302 lines
11 KiB

#!/usr/bin/env python
# -*- encoding: utf-8 -*-
import warnings
from abc import ABC, abstractmethod
import torch.nn as nn
from colossalai.lazy import LazyInitContext
from ._operation import hook_parameter_in_backward
from .utils import SeqParallelUtils
__all__ = ["FusedLayerNorm", "FusedRMSNorm", "LayerNorm", "RMSNorm", "BaseLayerNorm"]
try:
from apex.contrib.layer_norm.layer_norm import FastLayerNorm
EnableFastLayerNorm = True
except ImportError:
EnableFastLayerNorm = False
try:
from apex.normalization import FusedLayerNorm as ApexFusedLayerNorm
from apex.normalization import FusedRMSNorm as ApexFusedRMSNorm
class FusedLayerNormWithHook(ApexFusedLayerNorm):
def __init__(self, normalized_shape, eps=0.00001, elementwise_affine=True):
super().__init__(normalized_shape, eps, elementwise_affine)
def forward(self, input):
output = super().forward(input)
output = hook_parameter_in_backward(output, self.weight, self.bias)
return output
class FusedRMSNormWithHook(ApexFusedRMSNorm):
def __init__(self, normalized_shape, eps=0.00001, elementwise_affine=True):
super().__init__(normalized_shape, eps, elementwise_affine)
def forward(self, input):
output = super().forward(input)
output = hook_parameter_in_backward(output, self.weight)
return output
except ImportError:
warnings.warn("Please install apex from source (https://github.com/NVIDIA/apex) to use the fused layernorm kernel")
FAST_LAYERNORM_SUPPORTED_SIZE = [
1024,
1536,
2048,
2304,
3072,
3840,
4096,
5120,
6144,
8192,
10240,
12288,
12800,
15360,
16384,
18432,
20480,
24576,
25600,
30720,
32768,
40960,
49152,
65536,
]
if EnableFastLayerNorm:
class FastLayerNormWithHook(FastLayerNorm):
def __init__(self, hidden_size, eps=0.00001):
super().__init__(hidden_size, eps)
def forward(self, input):
output = super().forward(input)
output = hook_parameter_in_backward(output, self.weight, self.bias)
return output
class BaseLayerNorm(ABC):
@abstractmethod
def from_native_module(module: nn.Module, sp_partial_derived: bool = False):
"""
Convert a native PyTorch layer normalization module to a specific layer normalization module,
and optionally mark parameters for gradient aggregation.
Args:
module (nn.Module): The native PyTorch layer normalization module to be converted.
sp_partial_derived (bool): Whether this module's gradients are partially derived in sequence parallelism.
Returns:
nn.Module: The specific layer normalization module.
Raises:
AssertionError: If the provided module is not an instance of the supported layer normalization type.
"""
class RMSNorm(BaseLayerNorm):
r"""
This is a wrapper around the RMSNorm. It is meant to be used only with the from_native_module interface.
"""
def __init__(self) -> None:
raise NotImplementedError(
"FusedLayerNorm is not implemented as a physical class. "
"It is meant to be used only with the from_native_module interface to convert a native RMSNorm module to colossalai layer norm module."
)
@staticmethod
def from_native_module(module: nn.Module, sp_partial_derived: bool = False, *args, **kwargs) -> nn.Module:
"""
Convert a native RMSNorm module to colossalai layer norm module,
and optionally mark parameters for gradient aggregation.
Args:
module (nn.Module): The native RMSNorm module to be converted.
sp_partial_derived (bool): Whether this module's gradients are partially derived in sequence parallelism.
Returns:
nn.Module: The RMSNorm module.
"""
LazyInitContext.materialize(module)
if sp_partial_derived:
# Since gradients are computed using only a subset of the data,
# aggregation of these gradients is necessary during backpropagation.
# Therefore, we annotate these parameters in advance to indicate the need for gradient aggregation.
SeqParallelUtils.marked_as_sp_partial_derived_param(module.weight)
return module
class LayerNorm(BaseLayerNorm):
r"""
This is a wrapper around native LayerNorm. It is meant to be used only with the from_native_module interface.
"""
def __init__(self) -> None:
raise NotImplementedError(
"LayerNorm is not implemented as a physical class. "
"It is meant to be used only with the from_native_module interface to convert a native LayerNorm module to colossalai layer norm module."
)
@staticmethod
def from_native_module(module: nn.Module, sp_partial_derived: bool = False, *args, **kwargs) -> nn.Module:
r"""
Convert a native LayerNorm module to colossalai layer norm module,
and optionally marking parameters for gradient aggregation.
Args:
module (nn.Module): The native LayerNorm module to be converted.
sp_partial_derived (bool): Whether this module's gradients are partially derived in sequence parallelism.
Returns:
nn.Module: The colossalai LayerNorm module.
"""
LazyInitContext.materialize(module)
if sp_partial_derived:
# Since gradients are computed using only a subset of the data,
# aggregation of these gradients is necessary during backpropagation.
# Therefore, we annotate these parameters in advance to indicate the need for gradient aggregation.
SeqParallelUtils.marked_as_sp_partial_derived_param(module.weight)
if module.bias is not None:
SeqParallelUtils.marked_as_sp_partial_derived_param(module.bias)
return module
class FusedLayerNorm(BaseLayerNorm):
r"""
This is a wrapper around the apex fused layernorm implementation. It is meant to be used only with the from_native_module interface.
"""
def __init__(self) -> None:
raise NotImplementedError(
"FusedLayerNorm is not implemented as a physical class. "
"It is meant to be used only with the from_native_module interface convert a native LayerNorm module to FusedLayerNorm module provided by apex."
)
@staticmethod
def from_native_module(module: nn.LayerNorm, sp_partial_derived: bool = False, *args, **kwargs) -> nn.Module:
r"""
Convert a native LayerNorm module to FusedLayerNorm module provided by apex,
and optionally marking parameters for gradient aggregation.
Args:
module (nn.Module): The native LayerNorm module to be converted.
sp_partial_derived (bool): Whether this module's gradients are partially derived in sequence parallelism.
Returns:
nn.Module: Union[FastLayerNorm, FusedLayerNorm].
"""
LazyInitContext.materialize(module)
# get the attributes of the module
normalized_shape = getattr(module, "normalized_shape", module.weight.shape[0])
eps = module.variance_epsilon if hasattr(module, "variance_epsilon") else module.eps
elementwise_affine = getattr(module, "elementwise_affine", True)
dtype = module.weight.dtype
device = module.weight.device
# pick the suitable layernorm implementation
use_fast_ln = normalized_shape in FAST_LAYERNORM_SUPPORTED_SIZE
if use_fast_ln:
if EnableFastLayerNorm:
ApexFusedLayerNorm = FastLayerNormWithHook
else:
# fall back to the normal fused layernorm is not built
ApexFusedLayerNorm = FusedLayerNormWithHook
else:
try:
ApexFusedLayerNorm = FusedLayerNormWithHook
except NameError:
warnings.warn(
"Please install Apex from source to use fused kernels, or set self.enable_fused_normalization = False. Using native layernorm instead."
)
return module
layernorm = (
ApexFusedLayerNorm(normalized_shape, eps=eps, elementwise_affine=elementwise_affine).to(dtype).to(device)
)
layernorm.weight = module.weight
if module.bias is not None:
layernorm.bias = module.bias
if sp_partial_derived:
# Since gradients are computed using only a subset of the data,
# aggregation of these gradients is necessary during backpropagation.
# Therefore, we annotate these parameters in advance to indicate the need for gradient aggregation.
SeqParallelUtils.marked_as_sp_partial_derived_param(layernorm.weight)
SeqParallelUtils.marked_as_sp_partial_derived_param(layernorm.bias)
return layernorm
class FusedRMSNorm(BaseLayerNorm):
"""
This is a wrapper around the apex fused rms norm implementation. It is meant to be used only with the from_native_module interface.
"""
def __init__(self) -> None:
raise NotImplementedError(
"FusedRMSNorm is not implemented as a physical class. "
"It is meant to be used only with the from_native_module interface to Convert a native RMSNorm module to FusedRMSNorm module provided by apex."
)
@staticmethod
def from_native_module(module: nn.Module, sp_partial_derived: bool = False, *args, **kwargs) -> nn.Module:
r"""
Convert a native RMSNorm module module to FusedRMSNorm module provided by apex,
and optionally marking parameters for gradient aggregation.
Args:
module (nn.LayerNorm): The native PyTorch LayerNorm module to be converted.
sp_partial_derived (bool): Whether this module's gradients are partially derived in sequence parallelism.
Returns:
nn.Module: FusedRMSNorm module.
"""
try:
pass
except ImportError:
raise ImportError(
"Please install apex from source (https://github.com/NVIDIA/apex) to use the fused RMS normalization kernel"
)
LazyInitContext.materialize(module)
# try to get normalized_shape, eps, elementwise_affine from the module
normalized_shape = getattr(module, "normalized_shape", module.weight.shape[0])
eps = module.variance_epsilon if hasattr(module, "variance_epsilon") else module.eps
elementwise_affine = getattr(module, "elementwise_affine", True)
rmsnorm = FusedRMSNormWithHook(
normalized_shape=normalized_shape,
eps=eps,
elementwise_affine=elementwise_affine,
)
rmsnorm.weight = module.weight
if sp_partial_derived:
# Since gradients are computed using only a subset of the data,
# aggregation of these gradients is necessary during backpropagation.
# Therefore, we annotate these parameters in advance to indicate the need for gradient aggregation.
SeqParallelUtils.marked_as_sp_partial_derived_param(rmsnorm.weight)
return rmsnorm